Light weight chassis and cabinet assembly for magnetic tape recorder

ABSTRACT

To minimize the weight of a magnetic tape recorder chassis and cabinet assembly, a wire frame chassis (18) carrying printed circuit board guides (20) and connectors (22) is mounted to one side of a sand cast bezel (24), and polyurethane wall panels (16) are secured to the wire frame. A cabinet cover and underlying tape transport assembly are hinged to the bezel to enable pivoting away from the wire frame, exposing circuit boards for servicing. The &#34;open air flow&#34; characteristic of the wire frame chassis (18) helps cool critical electrical components.

TECHNICAL FIELD

The present invention relates generally to electrical equipment chassisand cabinet assemblies, and more particularly, toward light weightchassis and cabinet assemblies for tape recorders or other equipmentcontrolled by multiple printed circuit boards that must occasionally beaccessed for assembly and servicing.

BACKGROUND ART

One of the most important considerations in the design of chassis andcabinet assemblies to house tape recorders or other electrical equipmentis the ease with which circuitry and mechanical parts can be installedand serviced. Thus, wall panels of a cabinet must be removable toprovide access to the circuit boards. The chassis and cabinet must belight enough to be easily carried, yet rigid to prevent deformation ofthe structural parts and provide protection of circuitry and mechanicalparts.

To reduce the internal operating temperature of the recorder or otherequipment, the chassis structure should be relatively open, withnumerous air flow paths for convection cooling of parts.

Finally, the assembly must be easy to construct and relativelyinexpensive, to avoid adding substantially to the cost of the equipment.

DISCLOSURE OF INVENTION

An object of the invention, therefore, is to provide a chassis andcabinet assembly for tape recorders or other electrical equipment thatis light weight, serviceable and sturdy, while having an "open air flow"design to provide efficient heat removal from critical components.

A chassis and cabinet assembly, in accordance with the invention,comprises a rigid, cast bezel to which is mounted a light weight, wireskeleton carrying printed circuit board guides and connectors. Lightweight, polyphenylene oxide foam wall panels are secured to the frame bysandwiching the frame between the panels and mounting brackets andanchoring the brackets to the bezel. A tape transport is hinged to thebezel to enable the transport to be pivoted outwardly from the frame toexpose the printed circuit boards and other interior components. Ofparticular significance, the bezel provides rigidity to the wire frameand wall panels while also supporting the relatively massive tapetransport mechanism. The open air flow structure provided by the wireframe chassis helps cool the printed circuit board assemblies andtransport.

Still other objects and advantages of the present invention will becomereadily apparent to those skilled in this art from the followingdetailed description, wherein we have shown and described only thepreferred embodiment of the invention, simply by way of illustration ofthe best mode contemplated by use of carrying out our invention. As willbe realized, the invention is capable of other and differentembodiments, and its several details are capable of modifications invarious obvious respects, all without departing from the invention.Accordingly, the drawings and description are to be regarded asillustrative in nature, and not as restrictive.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a top view of a tape recorder incorporating a chassis andcabinet assembly in accordance with the principles of the presentinvention;

FIG. 2 is a front view of the assembly;

FIG. 3 is a side view of the assembly;

FIG. 4 is an exploded view of a portion of the assembly, showing theinterconnection of a wall panel, the wire frame chassis and the bezel;

FIG. 5 is a partial view of the wire frame chassis carrying a number ofprinted circuit board guides; and

FIG. 6 is a top view of the wire frame chassis more clearly illustratingthe printed circuit board guides and connectors on the "mother" board.

BEST MODE FOR CARRYING OUT THE INVENTION

With reference to FIGS. 1-3, a chassis and cabinet assembly 10, inaccordance with the invention, houses a magnetic tape recorder having amagnetic tape transport mechanism 12 and signal processing circuitry onprinted circuit boards, such as boards 14, within cabinet walls 16. Theprinted circuit boards 14 within the cabinet walls 16 are mounted on aprinted circuit board rack 18 formed of a light weight, wire skeleton orframe, preferably formed of 0.187 wire, supporting printed circuit boardguides 20. Printed circuit board connectors 22 are soldered to a"mother" board circuit 36 (see FIG. 6) which provides substantially allthe electrical interconnections among the printed circuit boards 14. Thewire frame 18 is secured to one side of an aluminum, sand cast bezel 24;to the opposite side of the bezel, through hinges 26, is mounted thetape transport mechanism 12.

The bezel 24, which may be rectangular to accommodate tape recordingequipment or other electrical equipment of the type shown in FIG. 2, isrigid, thereby providing rigidity to the wire frame 18 which wouldotherwise have a tendency to twist and become deformed. This isparticularly important since any deformation of the frame 18 would tendto cause warping of printed circuit boards or to create difficulty inassembling and disassembling the boards with respect to the frame. Thebezel 24 also provides the sole supporting structure for the relativelymassive tape transport mechanism 12 which, although normally seatedwithin the cabinet 16, is hinged directly to the bezel.

With reference to FIG. 4, each panel 16, which is prefeably formed of alight weight, plastic foam material, such as polyphenylene oxide, ismounted to frame 18 by an angle bracket 28. The frame 18 is sandwichedbetween the bracket 28 and panel 16, and the assembly is secured bybolts 30. The "ear" 28a of bracket 28 is anchored to front bezel 24using another set of bolts 32. In other words, the wire frame 18 andpolyphenylene oxide panels 16 are secured to bracket 28 whereas thebracket 28 carrying the panel and wire frame is secured to the bezel.This technique provides convenient assembly and disassembly of thechassis and cabinet while applying the full load of the frame as well asany circuit board components which it carries and the side wall panelsto only the rigid bezel 24.

The magnetic tape transport 12 is pivoted to bezel 24 at hinge 26 toenable the transport to be pivoted on the bezel away from the wire framechassis 18 to expose printed circuit boards for assembly or repair. Toaccess the boards 14, a main cabinet cover 34, also preferably formed ofpolyphenylene oxide, is swung open about hinge 37. Hinge 37 ispreferably a "quick-disconnect" type to enable the cover 34 to becompletely removed from bezel 24, is desired. The tape transportmechanism 12 is then pivoted outwardly about its hinge 26 to expose thecircuit boards and other internal components. The boards are removed bypulling from the corresponding connectors and guides, as shown in FIG.5. A view of the connectors and guides following removal of circuitboards is shown in FIG. 6.

Of particular importance, the open air structure of the chassis andcabinet assembly provided by wire frame 18 for supporting printedcircuit boards 14 and wall panels 16 maximizes air flow within thecabinet and thereby helps remove heat from critical electrical orelectronic components. This "open" structure also improves accessibilityto circuits and wiring within the cabinet for servicing. Because alltape recorder functions are segregated on individual circuit boards,using a "mother board" circuit layout, inter-board wiring is minimized.Preferably, the wiring between circuit boards is, as shown in FIG. 6,provided by printed circuits such as circuit boards 36, extendingbetween connectors 22.

In this disclosure, there is shown and described only the preferredembodiment of the invention, but, as aforementioned, it is to beunderstood that the invention is capable of use in various othercombinations and environments and is capable of changes or modificationswithin the scope of the inventive concept as expressed herein.

We claim:
 1. In a magnetic tape recorder, a light weight chassis andcabinet assembly, comprisinga rigid bezel; a circuit boards supportmeans, including a wire frame carrying opposed pairs of circuit boardguides and electrical connector means positioned to be connected tocircuit boards supported between said guide pairs; first means forsupporting said wire frame to said bezel such that said bezel preventsdeformation of said wire frame.[., said circuit board guides beingapproximately perpendicular to a plane of said bezel.].; a magnetic tapetransport mechanism; and second means for pivotably supporting said tapetransport mechanism to one end of said bezel to enable said mechanism tobe pivoted outwardly from said frame.
 2. The assembly of claim 1,including a plurality of wall panels, and second means for supportingsaid wall panels to said wire frame.
 3. The assembly of claim 1, whereinsaid second supporting means includes at least one hinge secured to aside of said bezel opposite said wire frame.
 4. The assembly of claim 2,wherein said wall panels are formed of a plastic structural foammaterial.
 5. The assembly of claim 4, wherein said material ispolyphenylene oxide.
 6. The assembly of claim 1, including a cabinetcover and hinge means for pivotably mounting said cabinet cover to anopposite end of said bezel.
 7. The assembly of claim 2, including anglebracket means, said first supporting means including means for securingsaid wall panels to one portion of said angle bracket means and saidsecond supporting means including means for securing said bezel to asecond portion of said angle bracket means perpendicular to said firstportion.
 8. A light weight chassis and cabinet assembly for electricalequipment, comprising:a rigid bezel; circuit board support means,including a wire frame carrying opposed pairs of circuit board guidesand electrical connector means positioned to be connected to circuitboards supported between said guide pairs; at least one wall panel; amounting bracket; means for supporting said wire frame to said panelmeans by sandwiching said wire frame between said wall panel and saidbracket; and means for supporting said wire frame and wall panel to saidbezel by securing said mounting bracket to said bezel.
 9. The assemblyof claim 8, wherein said wall panel is formed of a plastic structurefoam material.
 10. The assembly of claim 9, wherein said material ispolyphenylene oxide.
 11. The assembly of claim 8, including a carrierfor supporting electrical equipment and hinge means for supporting saidcarrier to one of said bezel to enable said carrier to pivot on saidbezel outwardly from said wire frame.
 12. The assembly of claim 11,including a cabinet cover and hinge means for supporting said cover toan opposite end of said bezel.
 13. The assembly of claim 6 or claim 11,wherein said cover is releasably secured to said hinge means to enableremoval of said cover. .Iadd.14. The assembly of claim 1, wherein saidcircuit board guides are approximately perpendicular to a plane of saidbezel. .Iaddend.